X-ray diffraction (XRD) is an essential technique to identify the structures and compositions of newly developed materials. However, XRD patterns consist of multiple peaks, and it is not always ...

The intensities of XRD peaks depend on the atomic position within the lattice planes. XRD can therefore be widely used for accomplishing the structural information of nanomaterials such as lattice ...

Relationship between the boson peak and first sharp diffraction peak in glasses. Scientific Reports, 2025; 15 (1) DOI: 10.1038/s41598-025-94454-8 ...

X-ray diffraction (XRD) is an essential technique to identify the structures and compositions of newly developed materials. However, XRD patterns consist of multiple peaks, and it is not always ...

This translated to a near-theoretical unpolarized diffraction efficiency, reaching 94.3% at its peak and staying over 70% across a wavelength range broader than 200 nm.

For complex multi-phase systems, overlapping diffraction peaks can complicate phase identification and quantification. In such cases, diffraction patterns may become too convoluted to distinguish ...

TGA, this research evaluates LFP's thermal stability and phase transitions, crucial for optimizing lithium-ion battery ...

Discover the power of X-Ray Diffraction (XRD) in nanotechnology. This glossary entry explains the technique, its principles, and applications in materials science, pharmaceuticals, and more.

The width of the peaks within the X-ray diffraction pattern is described by ‘b’, which equates to the full width at half the peak’s maximum intensity. Instrumental contribution is used to correct for ...

This translated to a near-theoretical unpolarized diffraction efficiency, reaching 94.3% at its peak and staying over 70% across a wavelength range broader than 200 nm.